Accounting machine



Oct. 31, 1944. P. SPURLINO ET AL ACCOUNTING MACHINE 12 Sheets-Sheet 1 Filed Oct. 2, 1940 Inventors Pascal Spurlino and Konrad Rauch Their Attorney ACCOUNTING MACHINE Filed Oct. 2, 1940 12 Sheets-Sheet 2 Raw Their Attorney P c -purlin d R Oct. 31, 1944. SPURLINQ ETAL 2,361,662

ACCOUNTING MACHINE Filed Oct. 2, 1940 12 Sheets-Sheet 3 Pascal Spurlino and Konrad Rauch L Inventors Lf 1 By Their Attorney 1944- P. SPURLINO ET AL ACCOUNTING MACHINE Filed Oct. 2, 1940 12 Sheets-Sheet 4 FIG.4

Pascal Spurlino and Konrad Rauch Inventors Their Attorney Oct. 31, 1944. p SPURLINO E 2,361,662

ACCOUNTING MACHINE Filed Oct. 2, 1940 12 Sheeis-Sheet s 270 27/ g FIG. 5 595 l 2/2 Pascal Spurlino and Konrad Ranch Inventors "5 Their Attol ney 1944- P. SPURLINO EIAL ACCOUNTING MACHINE Filed Oct. 2, 1940 12 Sheets-Sheet 6 FIG. 5B

Konrad Rauch Inventors By M Their Attorney 1944- P. SPURLINO ETAL ACCOUNTING MACHINE Filed Oct. 2, 1940 12 Sheets-Sheet 7 Inventors By &4, m

Konrad Rauch Pascal Spurlino and Thqir Attorney Oct. 31, 1944. p SPURLINO ETAL 2,361,662

ACCOUNTING MACHINE Filed Oct. 2, 1940 12 Sheets-Sheet 9 Pascal Spurlino and Konrad Rauch Inventors y iwl/ Their Attc rrney Oct. 31, 1944.

P. SPURLINO ET AL ACCOUNT ING MACHINE Filed Oct. 2, 1940 12 Sheets-Sheet 10 Pascal Spurlino and Konrad Rauch Inventors By M Their Attorney Oct. 31, 1944. P SPURLINO ET AL 2,361,662

Filed Oct. 2, 1940 12 Sheets-Sheet 11 FIG. 22 FIG. 23

1487 62 3 FIRST NATIOAL BANK 81 1 487 n 1112 1-20 TRUST 30.

14 2 5 ANYWHERE, H|0 191A 1406 9 -7 DEPUSITED TO THE REDIT OF 1406 16 1000 1406 1a 34109-20 CURRENCY ma 1485 T 19.00

H 85 62 8'63 SILVER 1 485 16 1832 CHECKS- FIG. 24 THE FIRST 100100111 BANK 0 TF Pascal Spurlino and Konrad Ranch Inventors Their Attorney SPURLINO ET AL ACCOUNTING MACHINE Filed Oct. 2, 1940 MFIG.2

12 Sheets-Sheet l2 PROOF DEPARTMENT BALANCE SHEET vvvvvvvvvvyvv DAT E APR 15 40 DEPARTMENTAL TOTAL READING DEPARTMENT N0. ITEMS bE osn DEPT r TAcH N0. N0. N0. AMOUNT.

| 'QQfiQ fifi AMOUNT DESCRIPTION 1%;

EARIN SE 1 13,925.63 E kNK NEEL A CLEARING HnusE 2 15,717.27 BANK N0.2

,. CLEARING HUUSE 3 1,618.50 E BANK N[1.3

.. cLEARms HOUSE N 4 1,725 it BANK NH.

TRANSIT LETTER 5 12,468.10 A No.1

TRANSIT LETTER F3 6 1 353.33 NU.Z

TRANSIT LETTER 7 2.429. 40 N0.3

MISCELLANEOUS 8 728.30 TRANSIT DASH E 9 1.29150 if ITEMS CASH R; 10 6,056.10 TELLER NBA mm 11 53 -93 TELLER N02 CASH 12 6,151.25 TELLER No.3

CASH K? 13 5,903.72 A TELLER No.0

INDIVIDUAL LEDGER S 14 17,761.91 AG INDIVIDUAI LEDEER 380- A 15 16,679.19 A H-O INDIVIDUAL LED ER 16 17.2mm P-z G GENERAL LEDGER 17 2,100.00 DEBITS MONEY S 1 8 70.60 at ORDERS MISCELLANEU s 6 416522349 CREDITS U a 133'562.10-2D* DEPOSITS ToTAL TOTAL ToTAL DEBITS CREDITS ITEMS Pascal'Spurlino and Konrad Rauch Inventors Their Attorney Patented Oct. 31, 1944 "um'rso A faiths s2 PAT T 6 FFICE V nccounmomcnma Pascal Spun-lino and Konrad Ranch, Dayton, Ohio,

assignors to The National Cash Resists r Gompony, Dayton, Ohio, a corporation of Maryland I ApplicationOctobcr 2. 1m, scl'lll so. stasis a Claims. (01. 101-96) This invention relates to accounting machines and similar business machines and is directed 1930; and June 3, 1930, respectively, to Bernls M. Shipley; No. 2,175,346, issued October 10, 1939, to Maximilian M. Goldberg; No. 2,141,332, issued December 2'7, 1938, to Charles H. Arnold; and

.No. 1,693,279, issued November 27, 1928,.to Waiter J. Kreider.

The machine embodying the present invention, 2

and as now constructed, is well adapted for use by banks and especially in the proof department thereof, where the various items are listed and distributed and deposits checked for a proofbalance at the end of each day.

Each bank, in its proof department, keeps an accurate record of each transaction handled by the bank, which tranactions generally come from incoming mail, from out-of-town or transit banks. incoming clearings from-local banks, and

receiving and paying items handled by the tel1 ers of the bank.

Many banks require their list of checks or items paid by another bank to be accompanied by a printed list of checks paid by a bank when these checks are sent back to the bank on which they are drawn.

Therefore, for use in connection with these and other requirements of the bank, a machine which prints individual lists of groups of items, a master list of all items, identification data on deposit slips or on a check as desired, a departmental or group total slip, and totals of the distributed items is essential, as it not only is a great time saver for the employees of the bank, but also provides accurate machine-printed results immediately at the close of the day's business. For the purpose of illustrating one form of the present invention, the machine shown herein is constructed to perform the functions stated above. However, it is not intended to limit the invention to this one form, as other forms for fulfilling other business systems may be used without in any way departing from the invention.

It is, therefore, one object of this invention to provide an accounting machine with means for distributing items into a plurality of classifications and also provides plurality of individual listing tapes or detail strips for recording the items of such classifications.

Another object is to provide means for selecting one of said tapes to receive a printed record of an item, said selection being controlled by the selection of the classification totalizer which receives said item.

A further object is the provision of removable frames for the individual tapes, one frame for each tape, which frame may be easily removed to replace the paper roll therein whenever necessary.

Another object is to provide positive means to prevent operation of the machine unless all of said individual frames are properly located or latched in operating position in the machine.

Another object is to provide a separate feeding means for each tape, a common driver for all,

and a selecting means to determine which of said feeding means shall be actuated by mon driver.

Another object is to provide a master tape or record strip to receive printed impressions of all items listed on all of said individual tapes, and

on which are also listed all other classifications of items which, due to the particular system of the bank, are not listed on any ofthe individual tapes. 7

Another object is to provide a variable feed for said master tape, controlled by the type of operation of the machine.

A further object is to provide additional print-' ing meansto certify checks and/or deposit slips.

Another object is the provision of a device to sort checks when they are listed, which device is associated with a machine that has thereon means controlled by the individual tape selector control to indicate the proper section of the device to receive the checks.

With these and incidental objects in view, the invention includes certain novel features of construction and combinations of parts, the essential elements of which are set forth in appended claims and a preferred form or embodiment of which is hereinafter described with reference to the drawings which accompany and form a part of this specification.

In said drawings:

Fig. 1 is a perspective view of the machine embodying the invention and shows a portion of the check-sorting boxes associated therewith.

Fig. 2 is a diagrammatic view of the keyboard of the machine.

Fig. 3 is a sectional view of the machine taken to the right of one of the amount banks and shows said bank and the differential mechanism row 2, and shows said bank and the differential mechanism associated therewith.

Figs. 5A and 5B taken together constitute a plan view of the mechanism for operating the said com- Fig. 2'1 shows a portion .tension release lever for the master tape.

Fig. I shows the master tape short feed means and the control for the same.

Fig. 8 is a detail view, partly in section, showing the construction of a portion of the feed means for the master tape.

Fig. 9.is a detail view of the master tape tension roll.

Fig. 10 shows the visible consecutive numbering means and the slip feeler device,

Fig. 11 shows the slip impression means and a part of the control therefor.

Fig. 12 is a fragmentary side view of the total control plate and the connection therefrom to the master tape feed control. I

Fig. 13 shows a portion of the impression means and one of removable carrying frames for the listing ta e and the interlocking means which prevents operation of the machine unless the frame is locked in proper position in the machine.

Fig. 14 is a front view of one of the removable carrying frames for listing tape.

Fig. 15 shows a portion of once! said frames, part of the machine releasing means, and the interlocking mechanism to prevent release of the machine unless said frame is locked in proper position in the machine, this view showing the frame partly withdrawn, whereby the interlocking means is in, position to prevent operation of the machine release means.

Fig. 16 is a detail view of a part of said interlocking means.

Fig. 17 shows the listing tape feeding means and the control therefor.

. I Fig. 18 shows the listing tape impression means audit strip.

Fig. 23 shows a deposit slip. I

Fig. 24 shows a bank check.

Fig. 25 shows a portion of a master tape'and how it is used on the proof of balance sheet.

Fig. 26 shows a portion of one of the listing tapes.

of another of the listing tapes.

Fig. 28 shows a departmental total slip- Gannon. Descan nou asomea audit strip is usually in the front of the machine.

whereas in the present machine this m mter tape or audit strip is at the right end of the machine and located under the control banks of keys. likewise, the slip-printing device, instead of being across the "front of, the machine, is located at the left of the machine underneath the datesetting mechanism and the date-printing devices.

There is provided in the machine of the present invention an internal gear driving mechanism, such as that disclosed in the above-mentioned Kreider patent, which is for the purpose of simultaneously setting up, on groups of printing devices, amounts and data under control of the keys, so that printing can be readily accomplished on an inserted s p or check at the extreme left of the machine, and at the same time these amounts may be set up on the-printing wheels associated with seven individual listing tape devices arranged at the frontof the-machine, whereby any particular one of the devices selected may have printed on its tape the amount which is being entered in the machine as a transaction.

By means of this same type of mechanism shown and described in the Kreider patent, the type wheels are simultaneously set up at the right-hand side of the machine, for the purpose of printing on the master tape or audit strip all of the items entered in the machine.

The above-mentioned column-printing mechanism is controlled by the usual type of differential mechanism shown in the above-mentioned Shipley and Goldberg patents and also shown generally in this application.

As has been previously stated, certain outof-town banksand also certain local banks require, with checks paid out by the bank having one of the machines of this invention in its proof department, a printed list made for each of said banks, showing the amount of each of the checks which have been paid by the bank, which checks are drawn on said other local banks or out-oftown banks.

Therefore, to provide for such individual item lists, the present invention is provided with seven individual tapes or detail strips with removable frames for carrying those strips, so that the frames can be readily taken out of the machine to have the paper replaced whenever necessary.

The machine keyboard is arranged for taking care of all business in connection with the bank. whereby all transactions handled by the bank may be listed in this machineand a printed Described in general termathe machine emness system for which the machineis built. In

the present instance, the totalizers are adapted to receive the many and various items constituting individual transactions that are handled in record made of each of these transactions. The

P machine is, therefore, provided with the usual banks of amount keys of suflicient capacity to take care of the ordinary business of any bank.

There are also three rows of what are known in the art as'control keys,"-for the purpose of selecting various totalizers for the distribution of the transactions entered in the machine. There is also 'a row of total-taking control keys, which control the machine for the purpose of taking totals from the various totalizers at the close of day when it is desired to clear out the of the check by the machine.

control bank (row 2, Fig. 2) are designated for the purpose of entering the debits from various local banks and transit banks, the first seven keys being used for this purpose. Associated with each one of these keys is one of the removable individual listing tapes above referred to. There i mechanism in the machine under control of these sevenkeys, which selects the proper one of the individual tapes to receive a printed impression of the amount of the item being entered in the machine. Prior to entering these debitsthe total amount of the entire block or debit is first entered in the crossfooter bythe depression of the key 20 when the transaction relates to a customers deposit. This, of course, takes place after the amount of the total has been set up on the keyboard. This total amount goes into the plus side of the crossfooter, and. as each of the various debits is entered in the machine, which debits may be distributed into any one or all seven of the totalizers associated with the first seven keys in the middle control row, these individual amounts are subtracted from the cross footer, so that at the end of the entry of the several items of this particular batch the crossfooter should be clear. which, of course,-

is a proof that the items were properly totaled.

These items may come from the teller's cage andusually are the deposits made by customers having checking accounts in the bank.

At the same time that the deposit-of a ens-- tomer is run through this bank proof machine,

the deposit slip, upon which is listed all of the deposits as they are made by the customer, is placed in the left-hand side of the machine, and the total amount is certified on this deposit slip by printing on the back thereof the date, the

consecutive number of the transaction, and a,

number designating the total into which it was placed in the machine.

Also, when a person comes into the bank to cash a check, the check may be placed in the machine and a verifying amount put on the back There is also associated with this machine a sorting device consisting of boxes or compartments into which the checksare placed by'the operator after they have been listed in the machine. Such a sorting device is shown partially in Fig. 1. Each of the bins or sections into which the checks are to be placed after they have been listed carries in the present instance an electrically-lighted indicator, which lights up upon the depression of one of the control keys. to indicate to the operator the bin into which the check is to be placed.

DITAILED Dascrurrxon Framework and operating mechanism The machine framework for the main part of the machine comprises a left frame 60 (Figs. 3 and 4) and a right frame (not shown), which support most of the machine mechanism and frames 82 and 63 are also tied together at their frontends by a bar .88, and the frames '4 and II are tied together at their front ends by a bar as. All four printer frames rest on the surface of a sub-base (notshown).

The machine proper and also the printing mechanism thereof is enclosed in a suitable cabinet ll having the necessary hinged openings for access to certain parts of the machine by the operator whenever necessary. All hinged openings are provided with suitable locks to prevent unauthorized persons from having access to .the

I inner part of the machine.

Normally the machine is electrically operated bya conventional type of motor, such as that disclosed in the Shipley patents referred to hereinbefore, and, in addition. a hand crank is provided for operating the machine manually when necessary. The well-known motor starting bar used on previous machines has been omitted from thisrnachine, and, instead, the machine is released for operation by depression of any one of a plurality of so-called motorized" or operating" keys located in the total control row and also in the first, second, and third transaction banks.

These keys and their use will be explained more in detail later in this specification. Depression of any of the operating" keys releases a key lock shaft 1| (Figs. 3, 4, and -15) to the action of a spring (not shown), which looks said shaft a slight distance clockwise to operate the clutch mechanism which connects the driving motor-to a main shaft 12 iournaled in the left side frame and the right side frame (not shown). The movement of this shaft ll simultaneously operates the switch mechanism which closes the circuit to the motor, thus causing the motor to operate.

After the machine has performed the proper number of cycles to complete the type of operation being executed. the key lock shaft Ii is returned counter-clockwise to disengage the clutch v mechanism and simultaneously to open the switch to the electric motor. when the machine is manually operated by the use of the hand crank,

iii

machine is electrically operated,

Keyboard The keyboard of the machineis shown in perspective in Fig. 1 and in diagrammatic form in Fig. 2. By referring to'these two figures, it, will be noticed that 'at the extreme left there is a row of keys 15, which may be used to control the printing of any desirable special designations in connection with any item entered in the machine. There are nine rows of amount keys 18. each key having thereon two numbers complementary to each other. The small numbers are thecomplementary numbers and are used in setting up complements to correct errors when the operator makes a mistake in setting up the amount or when a depositor has added incorrectly on his deposit slip. ilhere are three banks or rows of transaction keys 11, I8, and 19.

When a customer's deposit is to be entered and distributed by the machine, the total of the deposit is set up on the amount keys l6 and the key 20' in row one is depressed and the machine is put through one operation, wherein the total of the deposit is entered in the crossfooter and also in a group totalizer, which is located in the tenth position in row three.

A distribution of the various items making up the total of the deposit just entered is then made. the operator setting up the amount of each check and distributing these amounts in anyof the proper totalizers related to the eighteen transaction keys in rows two and three. The transaction keys I to I in row two also control the selection of special individual listing tapes, which will be hereinafter described, whereupon the amount of the checks as they are distributed is printed upon these individual tapes.

The row of keys at the extreme right is known as the total control row," and this row has six keys 88 to 85 inclusive. The first four keys, 88 to 83 inclusive, are used to control the machine for taking totals and sub-totals from the totalizers associated with the keys in rows two and three. The key 88 is used to clear the crossfooter, and the key 88 sub-totals the crossfooter to print the amount of an error on the master tape and shows whether or not this error is a plus error or a minus error. The present machine has a total control plate 88 (Fig. 12) forcontrolling the engaging and disengaging movements of the three totalizer lines in adding, non-adding, subtracting, total-printing, and sub-total printing operations. The positioning of the total control plate 88 is controlled by the total keys 88 to 85 inclusive.

The present machine has three lines of totalizers including two lines of adding totalizers and, on the third line, an add-subtract or balance totallzer, known in the art as a crossfooter. The adding totalizers on the various lines and the cross footer are selected for engagement with the actuators by means of the keys in rows 1, and 3 (Fig. 2)

Th manner in which the transaction keys 'II, I8, and I8 control the selection of the diilerent totaiizers, and the manner in which the keys 88 to 85 and the plate 88 control the engaging and disengaging movement of the different totalizer lines, are fully explained in the Shipley patents previously referred to and also in the copending application of Shipley et al., Serial No. 677,988, filed June 28, 1933, which issued as United States Patent No. 2,262,258 on November 11, 1841. As

- this mechanism has no direct bearing upon the present invention, it is believed. that the general description given above will be suiiicient.

Amount banks and their associated difierential mechanisms As previously stated, the machine of this invention has nine rows of amount keys, and, as all the rows or banks of keys and their associated differential mechanisms are similar in every respect, it is believed that a description of one of these rows of keys and its difierential mechanism will be sufficient.

Fig. 3 is a transverse sectional view of the machine taken just to the right of one oi the amount banks, showing said bank and its associated differential mechanism, which will be con- There is a pair of the support plates I83 for each amount differential, and a tie rod I88 extends through holes in the center of the hubs I82 to secure all oi. the amount differentials in a compact unit.

A slot in the forward end of the spider I88 e gages a stud in a latch-disengaging arm I8! pivoted on an extension of the actuator The arm I81 and a companion arm I88 I8I. together support a differential latch I88 for radial shifting movement. .A spring 8 urges the arms I 81 and I88 and the latch I88 rearwardly to normally hold a foot-shaped projection. III of said latch in engagement with a shoulder H2 on a differential driving segment II8 rotatably supported on the hub of the actuator II. A link I I I pivotally connects the driving segment II3 to a lever H5 pivoted on a stud H8 in the left-hand one of the plates I83, and said lever IIli carries rollers III and H8, which cooperate, respectively, with the peripheries of companion plate cams I I8 and I28 secured on the main drive shaft I2. Depression of one of the amount keys I8 likewise moves the lower end thereof into the path of a rounded surface I28 of an extension of the arm I81.

In adding operations, the main shaft 12 and the cams H8 and I28 make one clockwise revolution, causing the lever II5 to rock the driving segment II3 first clockwise and then counterclockwise back to normal position. During its clockwise movement, the segment II3, by means of the shoulder H2, in cooperation with the projection III of the latch I88, carries said latch and the amount actuator I8I clockwise in unison therewith until the rounded surface I2I contacts the stem of the depressed amount key-l8. This rocks the latch aim I81 and its companion arm I88 counter-clockwise to disengage the projection III from the shoulder II 2 to interrupt the clockwise movement of the actuator IN and to position said actuator in proportion to the depressed amount key I8. Disengaging movement of the latch I88 moves a rounded extension I22 thereof into engagement with the corresponding one of a series of locating notches I23 on a plate I28 secured between the rod I88 and an upward extension 01 the left-hand support plate I88.

After the latch I88 is disen agedfrom the I shoulder II2 of the segment II 8. said segment sidered as representative of all of the amount banks.

The amount keys I8 are mounted in a key bank framework 88 supported. by rods. 81 and 88 extending between the main frames of the machine. Depression of one of the keys I8 rocks a zero stop pawl 88 for this particular denomination counter-clockwise out of the path of a reset spider I88 free on a hub of an amount differential actuator I8I rotatably supported by a hub I82 extending between two similar amount differential support plates I88 (only one here shown) in turn supported by rods I84 and I88 extending between the main machine frames.

continues its clockwise movement without interruption, causing an arcuate surface I28 thereof.

'in cooperation with the sole of the foot-shaped projection III, to lock the extension I22 of the latch I88 in a notch I23 corresponding to the depressed amount key. When the lever H5 and the segment II3 reach the term ni of their initial movements clockwise, a. roller I28 carried by said lever I I5 engages an arcute surface I27 on the under side of an amount beam I28 pivoted at I38 to the actuator Ill and forces an arcuate surface on the upper edge of said beam to contact with the hub of said actuator I M to position the beam I28 in proportion to the depressed amount key I8. The beam I28 has a slot I3I, which engages a stud I32 in a link I88. the upper end of which ispivotally connected to an indicator positioning segment I34 mounted on one of a, series of nested tubes I38 supported The segment I31 carries a stud I which engages a camming slot in a zero elimination cam plate I40 pivotally mounted on a stud MI in a segmental gear- I42 free on a shaft I40, journaled in the side frames of the machine. The teeth of the segmental gear I42 meshwiththe external teeth of an external-internal ring gear I44, the internal teeth of which mesh with a pinion which drives a square shaft. The square shaft in turn drives similar pinions meshing withthe internal teeth of gears similar to the gear I44, the external teeth of which gears are adapted to mesh with and drive corresponding denominational type wheels in each row of the column-printing mechanism, which columnprinting mechanism in the present case is for the purpose of printing on an inserted slip or check at the extreme left of the machine, for printing on the individual listing tapes to be hereinafter described, and also for printing on a master tape located at the extreme right side of the machine.

. Thismethod of driving the type wheels of the. column-printing accounting machine is fully explained in the previously mentioned Arnold Patam No. 2,141,332 and embodies an application of the driving mechanism disclosed in the abovementioned Kreider Patent No. 1,693,279. For the purpose of properly alining the differ.

' ential mechanism and the type wheels set thereby, there is provided on each of the segments I34 a series of notches I 41 e aged by an aliner' I40 secured to a shaft I40.

The aliner I40 is disengaged from the notches I4'I during the differential setting of the type wheels, and, after they have been set under the control of the keys through the differential mechanism, the aliner I40 is again moved into engagement with the notches I41, thus positively alining the type wheels.

The zero elimination mechanism above mentioned, which is for the purpose of controlling the printing of zeros and which is controlled by the above-mentioned zero elimination cam plate I40, is not directly involved in the invention in the present application, and therefore no further reference to the zero elimination mechanism will be given herein, such type of zero elimination mechanism being illustrated and described in the above-mentioned Arnold Patent No. 2,141,332.

' Totalizers The machine of this invention has two lines of the usual well-known interspersed adding totalizers, one line being located on a rear or No. 2.

totalizer line and the other line being located on a front or No. 3 totalizer line, and, in addition, has one add-subtract totalizer or crossfooter on the No. 1 totalizer line, which is known as the upper line."

The add-subtract totalizeror crossfooter on the No. 1 line is indicated by the reference numeral I 51. The totalizer wheels of the totalizers on the No. 2 or back line are indicated by the number I58, and the number Ill indicates the interspersed totalizers on the front or No. 3 to-- talizer line.

Totalizers of these types are old and well known in the art and are fully illustrated and described in the previously mentioned Bhipley patents, and therefore no further description of the construction of these totalizers is thought necessary herein.

As is usual in machines of this type, the actuators III are divided into three tooth sections as shown at Ill, III, and I02 in Fig. 3. The sections Ill actuate the add-and-subtract totalizer or crossfooter on the No. 1 line, the tooth seetions III actuate the totalizers Ill on the No. 2

line, and the tooth sections I62 actuate the toof the depressed amount keys II to enter into 20 said totalizers the amount corresponding to the keys depressed.

In subtract operations, the corresponding subtract wheels of the balance totaiizer or crossfooter Iil are engaged with the teeth I00 of the actuator I0l exactly the same as in adding operations, and the return movement of the actuator reversely rotates the adding wheels I51 of the crossfooter through the reverse gearing .shown in F18. 3, which is well known in the art and shown in several of the above-mentioned Shipley patents.

If no amount key ll of a bank (Fig. 3) is depressed, the zero stop pawl 00 of that bank remains in the path of the spider I00 and, upon initial movement of the spider by the actuator IOI, engages said spider and breaks the latch I09 to locate said actuator in zero position. After the actuator III is positioned at zero, the roller I20 positions the beam I 20, the link I33, and the so segments I34 and III in proportion thereto, as

shown in Fig. 3. At the end of any type of operation, the actuator IN is always returned to home position, as shown in Fig. 3. However, the links I33 and the indicating and printing mechanisms controlled thereby remain in set positions at the end of machine operations and are moved directly from these positions to their new positions in the succeeding operations of the machine through the beam mechanism, which is old and well known in the art and is often referred to as the "minimum movement device."

The usual tens transfer mechanism is provided for transferring positive and negative tens trans. 5 fers from lower to higher denominations.

Transaction keys The transaction keys 11 of row one have various features. The block No. key 11 is a key which controls an operation in which only print- 00 ing takes place and is used for causingthe printing of identifying block or batch numbers of deposits which may be going through the proof department and to which batches or blocks of deposits the department head may wish to assign as a special number for the purposes of checking later on. The lock release" key 11 is not directly involved in the invention herein and is used to release the machine for operation when an error has been made. For example, in running a deposit through the machine, the operator first sets up the total deposit, which we will say is $100.00, and this deposit is made up of three checks, one $50.00 check and two $25.00 checks. For the first operation, the operator 76 sets up $100.00 and depresses the 20 key in the first row, which key selects the positive wheels of the add-and-subtract totalizer or crossfooter on the No. 1 totalizer line to cause the amount to be entered additively thereon and at the same time selects a group total on the No. 3 line. This is one operation. 7 This deposit of $100.00 is now distributed, and we will say, for example, that two of the checks came from the local bank No. 1 and one check came from local bank No. 2. The next step for the operator is to set up, we will say, the amount of the $50.00 check and depress the local bank No. 1 key in row two, which releases the machine for operation. This causes the amount of $50.00 to be subtracted from the crossfooter and to be added into the totalizer selected by the "local bank No. 1 key 18. Next, the operator sets up $25.00 and depresses the local bank No. 1 key, which causes $25.00 to be subtracted from the crossfooter and added into said selected totalizer. Now, for the third operation, $25.00 should be set up, but we will say for the purposes of illustration here that the operator sets up $26.00 and depresses the local bank No. 2 key. This subtracts $26.00 from the crossfooter, leaving the crossfooter not at zero but in a state where $1.00 is on the minus side thereof.- The operator does not know that a mistake has been made and therefore proceeds to set up the total amount of the deposit for the next person. When the total deposit has been set up on the amount keyboard, the operator then depresses the 20 key ll, but it will not release the machine, because the crossfooter or add-subtract totalizer is not at zero, since there was an error made during the distributing of the last deposit. Therefore, the operator nowdepresses the error key 85 to determine how much of an error there is in the crossfooter and whether or not it is on the positive or the negative side of the crossfooter, and immediately finds that there is $1.00 on the negative side of the crossfooter.

Therefore, 1 is now set up on the keyboard in the $1.00 column of amount keys'pand the lock release key" ll in row onelis depressed in combination with the "20 key of row one, whereupon the $1.00 is added on the crossfooter, leaying the crossfooter in zero position. This, amount of the error is printed on the master tape, which will be hereinafter described.

The 19 key ll of row one is used for entering all other types of transactions or credits which are to be run through the machine in the proof department; for example, a credit letter may come in from an out-of-town bank and this may be run through and'set up in conjunction shown in Fig. 3. This bank of keys controls a diilerential mechanism, as illustrated in Fig. 4.

These keys are numbered 1 to 9 and have other designations thereon. Each of the keys 1 to "7 of the second row of transaction keys selects printing mechanism and individual listing tape for the purpose of printing on that tape the distributions of deposits made by the bank's customers. This is done for the purpose of furnishing other banks, which request them, lists of checks which are paid through the bank havin one of the machines of the present invention in their proof department. These individual listin tapes and the means for selecting them and for printing on them, under control of the keys of row two-that is, the first seven keys of row two-will be hereinafter described in detail. The keys "8 and "9 of row twoare used for the purpose of distributing miscellaneous transacwith the 19 key and then distributed in succeeding operations and classified as necessary. This "19 key also controls the selection of the add-subtract totalizer or crossfooter on the No. 1 line and at the same time causes the selection of a group total on the No. 2 row of totalizers.

The distributions of the amounts set up in conjunction with the "19 key are made in exactly the same way as the bank customers deposits are set up and distributed, as above described.

In other words, the "20 key is used for the checking account deposits of the bank customers, and the 19 key is used for all other types of credits which are to be distributed andcharged against various accounts by the keys of rows two and-three.

The keys 18 of row two select related totalizers on the No. 2 line of interspersed totalizers,

tions and cash items, as indicated on the keys.

Each of the keys 18 of row three, numbered 10 to 18, controls the selection of a totalizer on the No. 3 line (Fig. 3). These keys are used for distributing various items, as indicated on the keys in Fig. 2.

It is to be understood, however, that the indications on these keys do not have to be as they are shown, these being merely for illustrative purposes. Many banks desire other types of breakdown, and the captions on the keys can be changed to correspond to the type of breakdown used in the bank to which the machine has been sold.

All the keys of rows one, two, and three are "motorized or operating keys and cause the machine to be released upon the depression thereof when distributions are made. The differential mechanisms associated with these rows of keys are substantially the same; and therefore a description of the row of keys l8 and the difierential mechanism associated therewith will be given. As this differential mechanism is differentially controlled in a manner similar to the amount differential mechanism described above and is fully illustrated and described in the patents referred to hereinbefore, only a brief description thereof will be necessary herein. As above stated, these keys 18 control a transaction differential mechanism which selects the totaliz- .ers corresponding to the keys and which positions the printing wheels for printing symbols corresponding to the keys. This particular differential mechanism also controls the mechanism for selecting one of the seven individual listing tapes to be printed upon, which tapes'will be hereinafter described in detail.

The keys l8 are supported in a key frame carried by the previously-described rods 91 and 98. Depression of one of the keys l8 rocks a zero stop pawl I66 (Fig. 4) for this transaction bank out of the path of the forward end of a spider Hi1 pivoted on a hub I68 of a differential arm I69 turnably supported by a stud H0 extending between identical support plates (only one here shown) mounted on the rods l0 and 105. The spider i6! has in the forward end thereof a slot which engages a stud in a differential latch arm I13 pivoted on the arm I69, and said arm, in cooperation with an arm I'll also pivoted to the arm I69, supports a transaction diiferential latch I15 for radial shifting movement. The latch H5 has a foot-shaped extension I16, which cooperates with a shoulder on a differential operating segment ill pivoted on the stud I10 and connected by a link H8 to a lever H9 iulcrumed on astud I99 supported by the plate I", Extening operation, to rock the lever I19 and the seg-,

ment I11 clockwise, whereupon the extension I19 carries the latch I19, the differential arm I99, and the spider I61 clockwise in unison therewith until the extension I 99 of the latch arm I13 engages the stem of the depressed key 18. This rocks the arms I13 and I14 counter-clockwise to shift the latch I15 forwardly to disengage the foot I16 from the shoulder of the segment I11 and to engage a rounded nose I89 on an extensionof the latch I15 with the proper one of a series of alining notches I81. These notches I91 correspond to the different positions-of the second transaction differential and are out in a plate I99 supported by extensions of the plate I and the rod I94. This positions the transaction differential mechanism in proportion to the depressed transaction key 18 without interfering with the oscillating movement of the segment I11 and connected parts. After the latch I19 is disengaged from the shoulder of the segment I11, an arcuate surface I99 on the periphery of the segment, in cooperation with the sole of the foot I19, locks the latch in the corresponding notch I81 to retain the differential mechanism in set position.

When the lever I19 nears the terminus of its initial movement clockwise, a roller I99 carried thereby engages the under surface I! of a beam I92 pivotally mounted on the differential arm I99 and forces an arcuate upper surface of the beam into contact with an undercut portion of the hub I99 to position said beam I92 in proportion to the depressed transaction key 19. The rearward end of the beam I92 embraces a stud I99 of a link I94 pivotally connected at its upper end to a gear sector I95 secured to one of the nested sleeves I35 rotatabh' supported by the shaft I96. This link I94 is also pivotally connected at its lower end to a printer positioning segment I96 secured to the shaft I38. The

, tion of the printer drive shaft 292.

link I94 transmits the differential positioning of the beam I92 to the sector I99 and the segment I96, said sector I95 being adapted to control mechanism which shifts the set of wheels of the totalizers on the No. 2 line to select the appropriate totalizer, according to the key 19 depressed, into alinement with the corresponding amount actuators I9 I The segment I99 (Fig. 4) is connected by a link I91 to a gear sector 299, the teeth of which mesh with the external teeth of an external-internal drive gear 29I, similar to the gear I44. The gear 29I is operatively connected in the type wheels and the indicators for the second transaction bank by means of internal teeth therein, in cooperation with drive pinions mounted on a square shaft and other intemal-external gears according to the principle shown and described in the above-mentioned Krelder patent.

The mechanism described immediately above transmits the differential positioning of the beam I92 to the type wheels and indicators for the second transaction bank, whereupon operation of the printing mechanism causes a symbol characteristic of the depressed transaction key 19 to be printed on the desired one of the individual listing tapes selected, on an inserted slip or check, and also on the master tape or audit strip.

Psm'rnn Printer driving means All of the operating cams in the printing mechanism are driven from a printer drive shaft J 292 (Figs. 4, 6, and 7), which receives its movement from the machine cam shaft 12 in the following manner: V

Secured to the shaft 292 is a gear 292 meshing with a gear 294 mounted on a stud 299 in the base CI. The 'gear 294 meshes with a gear 299 mounted on a stub shaft 291 in axial alinement with the machine drive shaft 12. The ratio of the gears 299, 294, and 299 is such that one revolution of the shaft 12 causes one revolu- The stub shaft 291 is connected to the main shaft 12 by a clutch mechanism (not shown), which functions in total-printingoperations to disconnect the stub shaft 291 from the main shaft 12 during the first cycle of said total-printing operations to prevent any operation of the printer mechanisms during said first cycle. This clutch mechanism, for. preventing operation of the printer shaft during the first cycle of a totaling operation is of the same principle, as that shown and described in the above-mentioned Shipley Patent No. 1,619,796.

Individual listing tapes As has been. previously stated, this invention includes a novel printing mechanism which is able to furnish certain banks, which require them, individual lists of all the checks drawn on said certain banks, which checks have been I cashed by the bank using one of the machines of this invention. To accomplish this result, the machine is provided with seven individual listing tapes, upon each of which is printed a list of the checks cashed and the totals thereof. The number of the tapes may be more or less than the seven shown, depending upon the requirements of the system of the bank in which the machine is used. These individual listing tapes are mounted in the front part of the machine, as clearly shown in Fig. l, and are removable from the machine, so that it is a very easy matter to replace the paper roll when it has been exhausted. Also, extra frames which contain a fresh supply of listing tape may be provided for the banks, so that if they wish they may have one always ready to replace a frame in which the supply of tape has been exhausted, so that there will be no appreciable amount of time lost in replenishing the supply of tape during the busy hours of the day. In Fig. 1, the lids of two of the tape frames are shown opened, and in one case one of the frames is shown about to be withdrawn from the machine. The cabinet 19 is provided with openings 2, so that several items on each tape are visible to the operator without having to remove the frame from the seven keys 15- (Figs. 1 and 2); of row two of the transaction keys.

Since the individual listingtape frames are all alike, and the mechanism for operating th hammers for the tapes and also the feeding mechanism for the tape are similar for each of said tapes, a description of one frame, the hammer operating means for its tape. and the feeding means for the tape will s'ufllce for all.

The seven individual tape frames are supported on a plate-H3 (Figs. 13 and 14) secured to the bottoms of the frames'53 and 54 (Figs. A and 5B) The plate 2i3 has secured to the top thereof seven U-shaped guides 2 l4, one for each of the individual listing tape frames. which guides have lateral flanges M5, the purpose of which will be hereinafter explained.

Referring now particularly to Figs. 13,14, and 15, each of the frames is composed of side plates M5 and 2H tied together near their lower edges bythree rods 2l5, 2i5, and 225 and near their upper edges by four rods 22I, 222, 223, and 224. The rods 2l5 and 225 rest on top of the flanges M5, and studs 225, one in each of the plates 215 and 2H, ride underneath the flanges H5. The plates 2l5 and H1 are also provided with flanges ing any movement of the frame too far in anupward direction. Pivoted on a stud 235 on the plate 2 I 5 is a spring-actuated latch 23f, having a nose 232 to latch over the tie bar 55 when the Therefore, the listing tape frame is kept.

frame is properly located in its operating position drawn from the machine.

The item tape or strip 212 is fed from a supply roll 233 over rollers 234 on the rods 22! and 223 and around a roller 234 on the rod 222, over a knurled feed roll 235 mounted on the rod 224, and underneath a knurled tension roll 235 carried on a lever 231 pivoted on a stud 235 on the side plate 2 i 1 and held in contact with the paper strip by a spring 235. The strip 212 is then fed over a guide plate 240 and underneath a serrated tear-off plate 2, so that the strip may be torn off by the operator when the listing of the checks has been completed.

Sometimes a. list of checks is quite long, and, therefore, to provide a place for the end of the strip, the lid 250 of the frame has secured thereto a curved guide 25!, whereby the end of the paper is automatically coiled up within this lid as it is fed forwardly after the printing of each item thereon. Each lid also has secured thereto a guide plate 245 (Fig. 1) to keep the ends of the strips from coming in contact with one another due to the close proximity of the frames in the machine. Each of the lids 255 has secured thereto a pair of arms 252, which are pivoted on a common rod 253, supported by the forward ends of all of the U-shaped guides 2. Each of the plates H5 and 2" has a shoulder 254 (Figs. 1 and 13), which shoulder contacts the inner side of the rod 253 should the operator withdraw the frame too rapidly, thus preventing the frame from being dropped on the floor and damaged. To finally complete the removal of the frame, it is necessary to tilt the the arm 25!.

forward end thereof upwardly until the shoulders 254 are above the rod 253.

The lid 255 is held in its closed position by a spring-pressed latch 255 (Fig. 13), the right end of which latches over a keeper 255 secured to the left side plate 211. The latch 255 is pivoted on a stud 251 and has a button 255 secured to a bent-over portion thereof, which button projects through a hole 255 in the top section of th lid 255 and is flush with the top thereof. Therefore, when it is desirable to remove one of the frames, the operator merely depresses the button 255, which raises the latch 255 from its keeper 255, whereupon the entire lid hinges on the rod 253 and can be moved downwardly into the position shown in Fig. 1.

Lnterloclc between listing tape frame and machine releasing mechanism It is absolutely necessary that all of the seven individual listening tape frames be properly latched in their operating positions in the machine before the machine can be' released for operation. To make sure that this happens and that none of the frames are out of the positions, there is provided an interlocking mechanism, which will now be described.

Referring particularly to Figs. 13 and 15, it

I will be noticed that in Fig. 13 the frame'is shown in its latched position with the nose 232 latched over the tie bar 55, which is the proper operating position for the frame and in which position the machine can be released for operation, while in Fig. 15 the frame is shown released; that is, the nose 232 of the latch 23! is shown as being on top of the cross-bar 55. In this position it is absolutely impossible to release the machine for operation.

A rod 255 carried by the printer frames 58 and 54 supports a plurality of spring-drawn arms 25l, one for each of the individual tape frames and held in contact with its respective rod M5 by a spring 252. The spring 252 is connected to a hook on the tie bar 55 and a stud 253 on pivoted on the rod 255, and as they all act in the same manner in connection with the rods M5, the description will be given in connection with one of the frames only. Another shaft 254 carried by the frames 53 and 54 has se cured thereto a plurality of arms 255 (see also Figs. 5A and 53). Also secured to the shaft 254 is an arm 255 (Figs. 5A, 15, and 16) having connected thereto a spring 251, the function of which is to hold each of the arms 255 in contact with its associated stud 253 in the arm 25f. Also secured to the shaft 254 is an arm 255 (Figs. 5A and 15) having pivoted thereto a link 255, which is also pivoted to the lower end of a lever :15 pivoted on a shaft 21! supported by the frames 52 and 53. The upper end of the lever 215 has a shoulder 212 adapted to coopcrate with a square stud 213 on an arm 214 pivoted on a stud 215 carried by the side frame 55. Plvoted to the arm 214 is a link 213, the upper end of which ispivoted to the usual clutch release iever 211 fast on the key lock line or release shaft 1|, which, as previously, stated, is

As all of these arms are loosely 

